Apparatus for molding plastic materials



Uct. 15', 1940.

L. D. SOUBIER ET AL APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1938 14 Sheets-Sheet 1 j I l l" i I l J W J v.6 1H lllllnllll n ,lll'llm JBH 0 IN V EN TOR ATT EYS.

l4 Sheets-Sheet 2 1.50. SOUBIER ET AL APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1958 1:.D. Je'ubier n:

INKENTORS Oct. 15, 1940, L. D. SOUBIER ET AL 2,218,456

APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1938 14 She etS -Sheet s' llll ' l -S n.

INVE TORS Oct. 15, 1940.

L. n. souB'lER ET AL 2,213,456 APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12. '1'95a- 14 Sheets-Shqet 4 lv Djozub IN V EN TORS 15, 1940. D SQUBIER AL 2,218,456

APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1938 14 Sheets-Sheet 5 l i u' mafs flw r Ogt. 15, 1940.

' L. D. SOUBIER El AL Filed Feb. 12;: 1938 14 Shgets-Sheet 6 V V 0 fl W LDswh r INVENTRS Oct. 15, 1 940. L. D. SOUBIER ET AL.

APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1958 14 Sheets-Sheet 7 Oct. "'15, 1940.

1. D. SOUBIER ET AL APPARATUS FOR MOLDING PLASTIC MATERiALS Filed Feb. 121 1938 V l4 Sheets-Sheet 8 I N VEN TORS i I." n

[0a. 15, 1940. nsouslzn ETAL 2,218 456 APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1938 14 Sheets-Sheet 9 lpswmg; J Q, 33 q INVENTORS syfi mg ATTO s.

Q ct. 15, 1940. L.'D. SOUBIER ET AL APPARATUS FOR HOLDING PLASTIC MATERIALS Filed Feb. 12, 1958 14 Sheets-Sheef 10 1 lllhn 4 2 INVENTORS ATTO Oct. 15, 1940. L. Di SOUBIER ET AL APPARATUS FOR MOLDING PLASTIC MATERIALS 14 Sheets-Sheet 11 Filed Feb. 12, 1958 rffflffflllfffffdllfi Illllll 14 Sheets-Shegt' 12 L Di SOUBIER ET AL APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 1211958 Oct. 1-5, 1940.

, JR. fl ge INVENTORS ATTORN s.'

Oct. 15, 1940. L. I5. soualzn ET AL 2,218,456

APPARATUS FOR HOLDING PLASTIC IATBRIALS Fi1d Feb. 12, 1938 14 sheets sheet 13 Oct 15; 1940. L, D sou r AL 2,218,456 APPARATUS FOR MOLDING PLASTIC MATERIALS Filed Feb. 12, 1938 14 Sheets-Sheet l4 INyENToRs A TTOR Patented on. 15, 1940 PATENT OFFICE APPARATUS FOR MOLDING PLASTIC MATERIALS Leonard D. Soubier and John R.

Hoge, Toledo,

Ohio, assignors to Owens-Illinois Glass Company, a corporation of Ohio Application February 12, 1938, Serial No. 190,182-

15 Claims.

The present invention relates to an for curing and molding synthetic resins or natural resins and other types of thermosetting materials capable of beingmolded and cured by the como bined action of heat and pressure. The invention is, without modification, adapted for use in connection with moldable materials in loose powdered or granular form, 'or with prepared materials which have been compressed into masses commonly referred to as tablets, briquettes, pellets, pills, compresses, wads or preforms.

Briefly, -the invention contemplates the provision of a molding apparatus including a series of stationary mold heads contiguously arranged about a vertical axis in the form of a closed ring or circle. Each mold head includes a mold table or carrier upon which there are mounted two or more molds. The table is adapted to periodically be indexed to interchange the position of the molds thereon and bring the same successively from a charging position to a forming position. Means is provided ;for individually heating the various mold heads. In the charging position the molds receive a charge of moldable material and the charge undergoes a preliminary heating and curing operation in the mold for a predetermined period of time. In the forming position the preheated charge undergoes a secondary heating and charging operation in the mold for a brief period period of time until final heat conversion takes place, whereupon the completed article thus" formed is discharged from the apparatus.

The objects, of the invention are manifold. Among the principal objects thereof :is the provision or a molding apparatus of the type set forth above in which the mechanical motions and functions performed by the mold charging, mold,

4o indexing, charge forming and article discharging instrumentalities are repeated without alteration during each half-cycle of machine operation, yetv in which these motions and functions are performed on difierent .molds and charges therein, 45 thus resulting in an apparatus in which the various stages of machine operation overlap-each other in such a niannerlthat during each halfcycle of machine operation completed articles I are discharged from one entire set or'molds while another entire set of molds become charged. The apparatus by means of which the above mentioned object may be accomplished is dis-' tinguished from the general type of stationary or rotary molding machine wherein the various 5 stages of machine operation followin sequence apparatus termed single phase ,ing andcuring of time and is subsequently subjected to the combined action of heat and pressurefor a prolonged and wherein the instrumentalities by means of, which each stage is brought about discharge their functions but once during each complete cycleof machine operation. Such machines may well be machines in that only 5 once during a complete machine cycle do the various operating instrumentalities enter upon their particular phase of activity. The present machine may well be termed a "two phase machine inasmuch as twice during each machine 1 cycle the various operating instrumentalities become operative. I

In carrying out the above mentioned object, the overlapping stages of machine operation permits a material reduction in the size of machine re- 15 quired to produce a given number of articles in a given time. In molding machines, whether stationary or rotary, where the mold heads are centered circumferentially on a circle, such overlapping of the various stages of operation permits the diameter of the machine to be decreased by approximately one-half, thus reducing the floor space .to approximately one-fourth of that required for a machine of the same capacity.

- Another primary object of the invention is to provide a molding apparatus of the type set forth above in which each mold charge in succession undergoes a preliminary or primary heat.-

stage at a reduced temperature I followed by a brief secondary heating and curing .30 stage. at an increased temperature, and finally undergoes a prolonged tertiary curing and forming stage at a high temperature and under pressure during which conversion takes place.

Yet another-principal object 01' the invention is to provide such a molding apparatus in which the mold charging, mold indexing, charge forming, and article discharging operations may be advanced or retarded independently of one another to prolong or shorten the primary, secondary or tertiary heating and curing stages as desired, such flexibility and control 01' operation being'oonducive toward better results in the final articles and permitting the character of machine operation to be a usted to accommodate 5 the character of the thermosetting material employed, 1

It is also a principal object of the invention to provide a molding apparatus including a series of individual mold heads each of whichis iremovable from/the apparatus independently of the'others, together with means whereby when one or more mold heads are removed from the apparatus, charging or distribution of the moldable material to the region 'or regions normally Bl occupied by the removed heads may be prevented without affecting the charging and other machine operations. In carrying out these objects, removal of a mold head or heads for the purpose of replacement or repair may be performed without necessitating prolonged shutting down of the apparatus, while prevention of charging of anymold head existing in the machine may be resorted to if for any reason the head fails to function properly and it is not desired to stop production. Also, when preparing to shut down the apparatus, the charging of the mold heads may be successively terminated so that no partially cured or formed charges or articles will remain in the idle machine.

Another object of the invention is to provide a molding apparatus having incorporated therewith novel and eflicient means for stripping the formed articles from the mandrels upon which they are formed.

Still another object of the invention is to provide a molding apparatus including a series of indexible mold tables together with novel means for successively indexing the tables to interchange the position of the molds thereon.

The provision, in an apparatus of the type set forth, of a means which will permit the amount of the individual charges delivered to the various molds to be varied; of a means for regulating the temperature of the various mold heads independently and of a means for regulating the flow of air through the mold heads are additional objects that have been carried out in the development of the present invention.

Other objects of the invention, not at this time enumerated, will become apparent as the description, when taken in connection with the accompanying drawings, ensues.

In the drawings:

Fig. 1 is a side elevational view of a molding apparatus constructed in accordance with the principles of the invention.

Fig. 2 is a vertical sectional view taken substantially centrally through the apparatus, certain parts being shown in elevation and other parts being removed for the purpose of clarity.

Fig. 3 is an enlarged fragmentary sectional view taken through one of the molding heads substantially on a radial plane.

Fig. 4 is a fragmentary top plan view ofthe apparatus, adjacent sectors thereof being shown in horizontal section at decreasing elevations Fig. 5 is a sectional view taken substantially along the line 5--5 of Fig. 2.

Fig. 6 is an enlarged fragmentary top plan view of a cam controlled bell crank lever mechanism employed in connection with the present invention.

Fig. '1 is an enlarged fragmentary sectional view taken on a vertical plane and illustrating the manner in which the molds of onehead. are

charged.

Fig. .8 is a sectional view taken substantially along the line 8-8 of Fig. 2.

Fig. 9 is a sectional view taken substantially along the line 99 of Fig. 8.

Fig. 10 is a sectional view taken substantially along the line Ill-l0 of Fig. 8.

Fig. 11 is a fragmentary perspective view of the parts shown in Fig. 9 taken obliquely thereto.

Fig. 12 is a fragmentary vertical sectional view taken through one of the molding heads and through an operating cylinder for elevating the molds to charge forming position.

Fig. 13 is a fragmentary vertical sectional view similar to.Fig. 12 showing the cylinder rod dissociated from the mold head to permit removal of the latter from the apparatus.

Fig. 14 is an enlarged detailed fragmentary side elevational view of one of the molding heads showing the same partially removed from the apparatus.

Fig. 15 is a sectional view taken substantially along the line l5l5 of Fig. 2.

Fig. 16 is a top plan view of a stripping device employed in connection with the present invention.

Fig. 17 is a sectional view taken substantially v along the line l'|--|| of Fig. 16.

Fig. 18 is a sectional view taken substantially along the line l8l8 of Fig. 17.

Fig. 19 is a top plan view of the base of the apparatus, a portion of the base cover or top being removed.

Fig. 20 is a sectional view taken substantially along the line 20-20 of Fig: 19.

Fig. 21 is a fragmentary sectional view taken longitudinally through a control valve employed in connection with the present invention.

Fig. 22 is a detailed side'elevational view, partly in section, of the valve shown in Fig. 21.

Fig. 23 is a side elevational view of the means for discharging the formed caps from the apparatus.

Fig. 23a is a sectional view taken substantially along the line 23a-23a of Fig. 23.

Fig. 24 is a diagrammatic view illustrating the manner of charging the molds and of indexing the same during the initial charging cycle of the charging mechanism. 7

Fig. 25 is a diagrammatic view' similar to Fig. 24 illustrating the manner of charging the molds and of indexing the same during the second charging cycle of the charging mechanism.

Fig. 26 is a diagrammatic view similar to Figs. 24 and 25 illustrating the relative positions assumed by the mold charging mechanism; the cap removing mechanism, and the operating mechanism for the control valves shown in Fig. 15, and

Fig. 27 is a diagrammatic view of a fluid pressure conduit system employed in connectionwith the present invention.

General description The apparatus involves in its generalorganization a base I (Figs. 1, 2 and 19) in the form of an integral casting including a ring-like base tween the wall 3 and base plate 2 exteriorly of the former. An inner wall 6 extends downwardly from the top 4 and is connected to the outer wall 3 by a plurality of radially extending webs I which serve to reinforce the base. wall 6 defines a central chamber 8 or pocket in the base I in which are contained the driving connections for the apparatus as will appear hereinafter.

Referring now to Figs. 1, 2 and 15, a plurality of web-like supports! are secured at their lower ends to the top 4 of the base i and extend upwardly therefrom in radial fashion. A supportl0.f0r the mold heads (see also Fig. 3),

The inner of the apparatus. The

radially extending dove-tail grooves (Fig. 1)

formed therein. A plurality of mold heads |2' are supported and arranged radially upon the supporting ring l0, each head having formed thereon in the lower regions thereof a tongue l3 which is slidably dove-tail groove The mold heads 12 are generally of sector shape, being wider in the outer regions thereof than inthe inner regions, and, since the heads. are arranged contiguously inradial fashion about the apparatus, they, when assembledupon the ring In, form a closed series extending completely around the central regions supporting ring |9"is provided with a circular upstanding wall |4 (Figs. 2 and 3) at its inner edge which limits the innermost positions of the mold heads l2 when operatively assembled upon the ring. The mold heads I2 are individually removable from the ring I0 in a manner and for a purpose subsequently to be set forth-in detail. I

Mold head construction The mold heads l2 are identical in construction and therefore a detailed descriptionof one of these heads will suffice for the remainder thereof. Each mold head comprises a casting |5 (Fig. 3) having formed therein a vertically ex tending bearing l6. 'A mold table II, having a connection with the mold charging operations as will subsequently be set forth.

The mold head casting I5 is provided with an upwardly extending portion 3| or outer wall which received in a corresponding 1 hollow shaftextension l8 journalled in the bearing I6, is rotatably mounted onthe head l2 and a is heldin position by means of a nut l9 threadedly received. on the lower end of the shaft extension I8. .A gear29, which is keyed to the shaft extension l8 immediately below the mold table i1, cooperates with arr-indexing mechanism (subsequently to be described) by means of which the mold table I1 is periodically indexed or rotated through an angle of one hundred and eighty degrees on the mold maintain the mold table IT in either of its indexed positions, the gear29' has a pair of diametrically opposed depressions 2| formed; in the underneath side thereof which are adapted to pletely through the casting head. In order to accurately cooperate with a holding detent 22 in the form x of a springpressed ball.

Supported upon the mold table atdiametrically opposed positions thereon and seated upon a pair of aligningbosses 29 are a pair of curing molds'24 having mold cavities 25 and surrounding tapered shoulders 26. The molds 24 are normally maintained seated upon the aligning bosses 23 by means of a clamping member 21 (Figs. 3; 4 and 5) having oppositely directedforked portions 28, the underneath sides of which are tapered and extend substantially completely around the .molds and seat upon the tapered shoulders 26 thereof, The

clamping member 21 is secured to the upper end of a tubular shaft 29 which is slidably disposed within the shaft extension l8 and which is yieldingly held in its lowermost position therein by means of a coil spring 30.disposed within the shaft extension l8 and surrounding the shaft 29., Thus the forked clamping member 21 is normally urged into yielding contact with the two molds 2 4 and yieldingly maintains them both'ilrmly upon the mold table in their proper diametrically opposed relationship. It is to be noted that the upper surface of the clamping member 21 and the upper surfaces of the molds 24 occupy a com- -in the mold table v points'thereon centrally of the aligning bosses.

and is prevented from wall, l4 thereof against extends inwardly as at 32 and overliesa portion of the mold table A cover plate 33 which is secured to the casting |'5"along its upper and lower edges provides a hollow space 34 (Figs.'2 and 3) which may be filled with glass wool or other insulating medium, thereby effectively insulating the mold head l2 against heat losses.

A heating element 35. (Fig.. 3) secured to the outer wall 3| is provided with lead in wires 36 which extend through insulators 31 secured to and supported by a strengthening web 38 formed on the wall 3|- The lead in wires 36 of each head may be connected through individual rheostats R (Fig. 24 only),thuspermitting individual te perature control of the mold heads l2.

A cap forming mandrel 39 (Figs. 2 and 3) is threadedly received in and-.removably suspended from a boss 49 formed in the portion 32 of the wall 3|. Upon successive indexing operations of the mold table H, the cavities 25 of the molds 24 are successively brought into forming alignment with the mandrel 3 The underneathside of the molds 24 are provided with tapered recesses 4| therein which, when the molds are seated upon their respective aligning bosses 23, register with openings 42 provided 1 at diametrically opposed The outer mold 24 which is in forming alignment with the mandrel 39 is adapted to be raised from its seat upon the boss 23 and moved into forming engagement with the mandrel 39 against the ac: tion of the yielding clamping member 21 as shown in Figs. 2 and 12, Toward this end, a pressure mandrel .43 having a taperedupper end which is complementary to the tapered recess 4| is slidably disposed in a guide 45 which extends com- |5 in alignment with the forming mandrel 39.

terminates flush with thebottom of the casting l5 being withdrawn downwardly through the guide whiclnterminates short of the bottom of the guide 45. The pressure mandrel 43 is actuated during the forming operation by operation of which will subsequently be described. The ram 48 is slidably disposed in a guide 49 formed in the supporting ring l0 and is connected to the lower endof the mandrel 43 by means of a bayonet slot connection 5|). The bayonet slot connection 50 is maintained intact by means of a locking bolt 5| which is threadedly received'in the ring l9 and-projects inwardly thereof into a slot 52 formed in theram 48. i 1

Removal of mold heads The pressure mandrel 43, when in its lowermost inoperative position,

45-by means of a key 46 (see Fig. 4) which extends into a keyway'fl means of a ram 48 the The mold head I 2 (Figs. 2 and 1 2) is normally held in position on the ring ill in contact with the V removal by virtue of the aligned guides 45 and 49 through which the connected ram 48 and pressuremandrel 43 extend.v

maintainedin posl The mold heads l2 are also tion on the ring l9 by means of a manually opere able locking member 53 (Figs. 12, 13,-14 and 15) which is secured to the casting IS on the-outer side thereof and which is provided with a latch 54 which cooperates with the head of the bolt 5| and prevents the mold from being moved radially of the ring I8. when it is desired to remove any one of the mold heads I2 from the apparatus bodily, the corresponding latch 54 is withdrawn from the bolt by manually turning the locking member 53; the bolt 5| is turned to withdraw the same from the slot 52 in the ram 48; the bayonet Mold charging mechanism The mold'charging mechanism includes a stationary hopper 68 (Fig. 2) adapted to contain a quantity of the granular moldable material sumcient to fill all of the mold cavities 25 several times. The hopper 68 is generally of funnel shape and occupies a position centrally of the apparatus at the extreme top thereof. The hopper is in part supported from the base I by means of a central supporting rod (if or column, the lower end of which is secured against rotation in a gear casing 82 which is suspended from the underneath side of the top 4 of the base I. The supporting rod 8| extends vertically upwardly through the top 4 and centrally through the apparatus. The upper end of the rod 6| is threaded and receives thereon the central hub 63 of a spider 84 which extends across the hopper 68 and by means of which the hopper is supported on the rod 8|. The hopper is in part supported from the base I in the manner just described and is in part supported from the mold head supporting ring II) by means of a rotary bell-shaped casing 1| having a restricted neck portion 12 which engages the hopper 68 in the medial regions thereof. A circumferential flange 13 formed on the hopper 68 bears against and slips on the upper rim of the casing II and thus a part of the weight of the hopper 68 is borne by the casing I I. The casing 'II is centered within the upstanding circular wall I4 of the supporting ring I8 and the lowerrirn thereof is supported upon an antifriction bearing ring 14 (see also Fig.

3) which in turn is supported upon an inwardly directed ledge 15 formed on the supporting ring I8; Thecasing II fits snugly within the 'wall I4 and a clearance space I6 provided between the wall I4 and easing II reduces frictional wear between these two relatively movable parts. A ring member 56 bridges the gap between the inner end of the inwardly extending portion 32 of the casting wall 3| and the casing 'II and is provided with an insulating cover 'plate 51 similar to the cover plate 33. A section 58 of the cover. plate 51 is removable to permit inspection of the charging mechanismu Referring now to Figs. 2 and 7, a charging spout 11 which is common to all .of the mold heads I! is swivelled to the lower end of the hopper 88 and extends downwardly and outwardly therefrom and projects through an opening I8 formed in the side of the casingII. The casing II and charging spout- 11 are adapted to be rotated in unison in order to bring the lower end of the spout 'I'I successively into charging relation with the various mold heads I2. Toward this end, the spout 11 is provided with a hub I9 which is keyed as at 88 to an elongated driving sleeve 8| which surrounds the central rod 8| and which is substantially coextensive therewith. The driving sleeve 8I and easing II are connected together by means of a spider 82 having a hub 88 secured to-the sleeve 8|. The outer ends of the radial arms of the spider 83 are provided with face plates 84 which are secured to complementary face plates 85 supported on webs 86 formed integrally on and interiorly of the casing 1|. An agitating member in the form of a sleeve I8 keyed to the sleeve 8| and surrounding the same is provided with a series of radial agitating arms designed, upon rotation thereof, to agitate and distribute the moldable material contained in the hopper .58.

The wall of the casing II (Fig. '7) is provided withan outwardly extending flange 81 and an inwardly extending flange 88 immediately below ment and together providing a horizontal transfer shelf 89, the upper surface of which occupies the same horizontal plane as the upper surface of the forked clamping members 21. The outer end of the flange 81 is complementary to the outer ends of the forked portions 28 of the clamp-.

ing members 21 (see also Fig.5) and, when the charging spout 'I'I occupies a charging relation to any one of the molds 24, the upper surface of the corresponding clamping member 21 and the upper surface ofthe transfer shelf 89 are substantially continuous, presenting a smooth surface devoid of crevices or voids in which the moldable material might lodge.

The lower end of the charging spout I! overlies the transfer shelf 89 and a charge transferring member 98 or charging member is slidably disposed upon the transfer shelf 89 immediately below the lower end of the spout TI. The charging member 98 is in the form of a slide having a shouldered opening 9i formed therein near its outer end in which opening a charging element 92 or insert is removably and interchangeably disposed; The charging element 92 is of a size adapted to contain the exact amount of moldable material required in the formation of the final article. The slidable charging member 98 is movable from the dotted line position shown. in Fig. 5 wherein the charging element 92 is in alignment with the lower end of the spout TI to receive a charge of material therefrom, to the full line position of both Figs. 5 and '7, wherein the charging element overli'= the mold cavity 25 and deposits its material therein. A sealing member I58 in the form of a ring surrounds the lower end of the spout I1 and by means of springs I59 is caused to bear against the charging member 98 to seal the moldable material and prevent egress of the same around the lower rim of the spout TI. The inner position of the charging member is determined by means of a retaining member 93 (Fig. 5) secured to the flange 88 and provided with a mg 94 designed for engagement with a limit pin 95 provided on the charging member 98. The outer position of the charging member .98 is determined by means of a similar retaining member 98, lug 91, and limit pin 98.

Still referring to Figs. 5 and 7, reciprocation of the charging member 98 in timed relation to the turning movement of the casing II and charging spout 11 about the axis of the central supporting rod- 8| is controlled by means of a bell crank lever I88 which is mounted for rocking movement in a sleeve I8I which is bolted as at I82 (Fig. 6) to the spider 82. The upper end of the bell crank lever I88 is eccentrically connected to the charging member 98 through a link I83 and the lower end thereof has eccentrically disposed thereon a cam roller I84 designed for engagement with a sectional cam tracklot (see else-Fig. 2) the individual sections m of which are bolted as-at I" (Fig. 8) to a sectional ring I88. The individual sections of the ring I88 are in turn bolted to a series of face plates I88 (Fig. 2) formed on certain of the standards 9. The sectional cam track I88 (Fig. 5). when assembled on the ring I88, presents a. series of troughs H8 and crests III the contour -of which is followed closely by the cam roller I84 by virtue of a coil spring II2 which is connected at one end to .the bell crank lever I88 and at the other end to a mounted on the flange 88.

From the above description and by reference to Fig. 2 it will be seen that as the casing II and charging spout 'I'l rotate about the axis of the central rod 6|, the spider 82 and sleeve I8I move therewith. The bell crank lever I88 is thus caused to'oscillate as the cam roller I84 follows the contour of the cam track I85. Oscillation of the lever I88 operates through the link I88 (see also Figs. 5 and 7) to reciprocate the charging member 88 to transfer measured charges of the moldable material-from the charging spout 11 to the mold cavities 26 of the various molds 24.

Mold indexing mechanism I The indexing mechanism for the mold-tables I1 is shown in Figs. 3 and 5 andcomprises a gear segment 65 designed for. successive engagement with the respective inderdng gears 28 of the mold tables I! and which is secured to the casing II exteriorly thereof by means of an integral at.-

tachment bracket 86 having circumferential extending slots 61: formed therein. Clamping bolts 68 extend through the slots 81 and are selectively receivable in a series of circumferentially spaced threaded apertures 68 formedin the casing II.

The'distance between adjacent circumferentially spaced apertures 68 is less than. the length of the slots 61, and thus the gear segment 65 may beinfinltely adjusted on the circumference of the casing II to vary the time at which indexing of the mold tables I'l occurs. and consequently vary the duration of the molding-cycle as will be set forth later. The number of teeth provided on the gear 28 is precisely two times the number of teeth provided on the. gear segment 65 in order that in passing the gear segment 65 will impart rotation to the mold tables I'I throughout one hundred and eighty degrees and reverse the position of the molds 24 thereon.

Mechanism for preventing charging of the mold. heads v It has been stated that the individual mold heads I2 are independently removable from the apparatus and the means whereby such removal may be accomplished has previously been fully described. Should for any reason whatsoever (as for example during replacement or repair) one or more mold heads be removed from the apparatus, means is provided for preventing chargheads. Referring particularly to Figs. :8, 9, 18'- and 11, each section I86 of the camtrack III has secured to its underneath side by means of countersunk studs II4 a bracket III provided with opposed slideways I I6 between which is slidably disposed a vertically slidable carriage I" provided with a shelf I I8. Secured by means of a countersunk stud III to the shelf III is a cam block m which, when the carriage m is in its pin II8 formed or disposed a circular uppermost position, tioh within the void the track section I86. The-inner surface (1. e.,

the exposed surface) of the cam block I 28 is uniformly' curved, the

radius of curvature thereof being equal to its distance from the central 8119- porting rod 6|, and thus when the cam block I28 occupies a position within the void created by the trough IIII, the cam roller I84 will,-'in passing. be prevented from enteringthe trough II 8 and will bridge the distance between the adjacent crests III as shown in dotted lines in Fig. 8 so that the bell crank lever I88 (see also Fig.7) will not be rocked about its axis and consequently the charging member 98 will not be actuated. When the carriage II! is in its lowermost position, the can block I28 will occupy a position below the level of the cam track I as shown in Fig. 11 and thecam roller I84 will .enter the trough II 8 as shown in full lines in Fig. 8 to actuatethe charging member 98 in the manner previously described.

In order that the operator of the apparatus may selectively prevent distribution of moldable material by the charging member 98to anyone of the mold heads I2 or to the region normally occupied by a withdrawn head, each carriage II I has formed thereon upper and lower contact bars I2I and I22, respectively, between which there is cam member I23. The cam member 123 is eccentrically pivoted by means of an elongated actuating rod I24 to the bracket H5 and a limit stop I25 or pin extending from the carriage I I1 in the viclnityof the. cam member I23 limits the pivotal movement of the latter in either direction and determines the uppermost and lowermost positions of the carriage II1.

- Referring now to Fig. 5, it will be seen that the cam roller I84 which controls the operation of the charging member 98 lags behind the charging member 88, or in other words occupies a radial plane removed from-the charging member 88 in a direction opposite to the direction of travel of these members. The .actuating ro'ds I24, which control the operation oftheir respective sets of charge preventing instrumentallties and .which are associated with corresponding sections I86 of secured to the supports 9 and which occupy positions directly in front of the respective mold heads H, the charging of which they are designed to control. The various supports 9 are provided with openings-I21 or passages through which the actuating rods I24 extend. The outer ends of the rods I24 are providedwith handles I59 by means ofwhich the rods I24 may manually be turned.

' Lowtemperature and high temperature curing of material in the molds After each individual mold 24 has been charged, the charge is permitted to remain un touched in' the mold for a predeterminedperiodof'time and become heatedand partially cured therein prior to the final curing and formation thereof into the finished article. During such initial curing of the charge in the mold, the mold I occupies a position on its respective mold table II at the inner side of the mold head I2. After the charge has been thus subjected. to a partialcur ing operation by the heat'generated within the mold head I2 by theheating element 88, the mold table II is indexed in the manner previously'described and the mold 24 and partially cured charge therein are moved with the table to a position of alignment with the forming mandrel 39 preparatory to the forming operation as shown in Fig". 3. Inasmuch as the mold 24 occupies a position near the inside of the mold head I2 remote from the heating element 35 during the preliminary curing operation and is moved outwardly into alignment with the forming mandrel 39 a short time prior to formation of the charge, a secondary heating and curing operation during which the charge is in close proximity to the" heating element 35 and during which the tem- .tapered upper end 44 of the mandrel enters the tapered recess 4I'of the mold 24, thereby elevating the mold from the mold table I1 as shown in Fig. 12. The partially cured charge is thus brought into forming engagement with the forming mandrel 39.

Referring now to Figs. 2 and 12, actuation of thev rams 48 is effected by means of a series of hydraulically operated presses I30 which are mounted upon the supports 9 and which are controlled by means of a series of cam operated valves I3I also mounted upon the supports 9.

Each pres-s I30 comprises a vertically extending cylinder I32 having a piston I33 therein which is mounted on the lower end of a corresponding ram 48. A coil spring I34 disposed within the cylinder I32 normally urges the piston and ram to the lowermost positions thereof and thus maintains the pressure mandrel 43 in its lowermost and inoperative position as shown in Fig. 13.

The control valves I3I for actuating the presses I30 comprise radially disposed valve casings'l35 (Figs. 2 and 21) each of which is provided with ports I36, I31 and I38. The various ports I36 are connected through pipes I39 (see also Fig. 27) to a circularpressure header I40 or manifold having a pipe connection 59 passing through the base I (Figs. 19 and 20) and leading from a source of fluid pressure. The ports I31 are connected through pipes I4I (Figs. 12 and 13) to the lower ends of the cylinders I32. The ports I38 are connected through pipes I42 to a drain manifold I43 having a pipe connection 99 (Fig. 19) extending through the base and by means of which BIS the fluid is returned to the source. Slidably disposed within each valve casing I35 is a valve member I44 having spaced sealing members I45, I46 and I41 formed thereon. The valve member I44'extends through apacking gland I48 and projects from the valve casing I35 and the projecting. end thereof has mounted thereon a cam roller I49. The cam roller I49 is designed ,for successive engagement with a pair of cam members I50 and I5I (Figs. '15, 21 and 22) which are adjustably mounted on respective radial arms I52 and I53 integrally formed on a sleeve I54 which is adjustably secured to the rotatable sleeve 81' which is centered upon the supporting rod 6 I.

The cam member I50 is provided with an outer cam surface I55 which, upon rotation of the cam member I50 in the direction indicated by the arrows, successively engages the various cam rollers I49 and causes the valve members I44' to be fully retracted in the valve casings I35 as shown in Fig. 21. In this position of the valve members I44,

the sealing members I46 and I41 occupy positions on opposite sides of the ports I31 and I38 thus connecting the pipes MI and I42 and permitting the fluid in the cylinders I32 of the presses I30 to be drained and causing the pressure mandrels 43 to be lowered out of engagement with the molds The cam member I5I is provided with an inner cam surface I56 (Figs. 15 and 22) 'which engages.

the'cam rollers I49 shortly after they have been released by the cam member I50 and causes the Cap removal mechanism Referring now to Figs. 3, 16, 17 and 18, the mechanism for removing or unscrewing the formed caps which adhere to the forming mandrels 39 after the molds 24 have been lowered from the forming operation'is disclosed. The cap removal mechanism comprises an endless. cap spinning belt I60 which may be formed of leather, rubber, or other flexible material and which'is mounted upon and is coextensive with an endless chain I6I mounted upon sprockets I62 and I63. The belt I60 is adapted to successively cooperate with the forming mandrels 39 to frictionally and yieldably engage the formed caps thereon and, by frictional and tangential engagement therewith, apply a torque to the same to spin the caps from the threads formed on the mandrels! The sprocket I62 is keyed to a shaft I64 which is mounted for rotation in a block I65. The sprocket I63 is mounted for rotation on a pin I66 or stub shaft carried by a block I61. A guide rod Upon I68 has one end thereof anchored in the block I61 and the other end thereof extends into a socket 55 formed in the block I65. A coil spring I69 surrounds the guide rod I68 and serves to urge the two blocks I and I61 apart to maintain the chain I6I and spinning belt I60 taut. The blocks I65 and I61 are pivotally connected to the adjacent ends of a pair of links I10 and Ill,

respectively, while the other ends of the links are pivotally connected to lugs I12 formed on a bracket I13 adjustably secured to the bell-shaped casing H by means of clamping bolts I28 which extend through slots I29 formed in the bracket I13 and which are threadedly received in the casing 1I. Adjusting screws I14 extend through lugs I15 formedon the links I10 and HI and bear against the outer surface of the bracket I13 to determine the outer limiting position of the spinning belt assembly. Coil springs I16 disposed between the lugs I11 formed on the links "I and I10 serve to urge the spinning belt assembly toward its outer limiting position and thus cause 118 keyed to the shaft 164 meshes with a gear 

